工程科学学报 DOI: Chinese Journal of Engineering,2020,42(3):313-320 (邢奕，崔永康，苏伟，等.SBA-15脱除超细颗粒的机制研究.工程科学学报，2020,42(3)：313-320) [4]Wu S L,Zhang YZ.S B et al.Analysis of main factors affecting NO,emissions in sintering process. Chinese Journal of Engineering,2017,39(5):693-701 (吴胜利，张永忠，苏博，等.影响烧结工艺过程NO,排放质量浓度的主要因素解析.工程科学学报， 2017,39(5):693-701) [5]Yan B J,Xing Y,Lu P.et al.A critical review on the research progress of multi-pollutant collaborative control technologies of sintering flue gas in the iron and steel industry.Chinese Journal of Engineering, 2018.40(7):767-775 (闫伯骏，邢奕，路培，等.钢铁行业烧结烟气多污染物协同净化技术研究进展.工程科学学报，2018 40(7):767-775) [6]Zhang X B,Zhu M W.Effect of bentonite additive on pelletizing operation of Sintering and Pelletizing,2003(06):3-7 (张新兵，朱梦伟.膨润土对我国球团生产的影响.烧结球团，2003(06)：3 [7]Kawatra S K,Ripke S J.Developing and understanding the bentonite fibe bonding mechanism. Minerals Engineering,2001,14(6) [8]Kawatra S K,Ripke S J.Laboratory studies for improving green ball strength in bentonite-bonded magnetite concentrate pellets.International Journal of Mineral Processing,2003,72(1-4):429-441 9]Pei YH,Gan XF.Chen YY,et al.Experimental researh on ew type pf organic binder as pellet additive.Sintering and Pelletizing,2012,37(01):39441 (裴业虎，甘学锋，陈义勇，等.新型有机粘接剂作球团 加剂试验研究.烧结球团，2012,37(01)：39- 41) [10]Fan X H,Wang Y,Gan M,et al.Strength enhar ement of oxide pellet with organic binder.Journal of Iron and Steel Research,2008(05):5-8+19 (范晓慧.王祎.甘敏，等.提高有机粘结剂氧化球团矿强度的措施.钢铁研究学报，2008(05)：5-8+19) [11]Huang G X.Study on Preparation of Oxidized Pellet by New-style Organic Binder [Dissertation].Changsha: Central South University,2007 (黄桂香应用新型有机粘结剂制备氧化球团的研究[学位论文].长沙：中南大学，2007) [12]Li HX,Jiang T.Qiu Getal.Molecular structure mould and selecting criterion of organic binder for iron ore pellet.Journal ofCemral South University of Technology,2000(01):17-20 (李宏煦，姜俦邱冠周。等，铁矿球团有机粘结剂的分子构型及选择判据，中南工业大学学报， 2000(01):120X) [13]Li H X.Wang D Z,Qiu G Z,et al.The mechanism of improving pellet strength by carboxyl methlated amyum lournal of Central South University of Technology,2001(04):351-354 (李宏煦，玉淀佐，邱冠周，等.羧甲基淀粉钠提高球团强度的机理.中南工业大学学报，2001(04)：351- 354) [14]Yang Y B,Huang G X,Jiang T,et al.Application of organic binder as substitutes for bentonite in pellet preparation.Journal of Central South University,2007(05):850-856 (杨永斌，黄桂香，姜涛，等.有机粘结剂替代膨润土制备氧化球团.中南大学学报，2007(05)：850-856) [15]Huang Z C,Wang Y M,Chai B,et al.Preparation of oxide pellets with fibrosis bentonite and its mechanism. Journal of Central South University,2014,45(07):2145-2150 (黄柱成.王雨蒙，柴斌，等.纤维化膨润土强化氧化球团制备及其机理.中南大学学报，2014,45(07)： 2145-2150) [16]Huang Z C,Li T H,Yi L Y,et al.Preparation of fibrosis bentonite and its application in iron ore concentrate工程科学学报 DOI: Chinese Journal of Engineering, 2020, 42(3): 313-320 （邢奕, 崔永康, 苏伟, 等. SBA-15 脱除超细颗粒的机制研究. 工程科学学报, 2020, 42(3): 313-320） [4] Wu S L, Zhang Y Z, S B et al. Analysis of main factors affecting NOx emissions in sintering process. Chinese Journal of Engineering, 2017, 39(5): 693-701 （吴胜利, 张永忠, 苏博, 等. 影响烧结工艺过程 NOx排放质量浓度的主要因素解析. 工程科学学报, 2017, 39(5): 693-701） [5] Yan B J, Xing Y, Lu P, et al. A critical review on the research progress of multi-pollutant collaborative control technologies of sintering flue gas in the iron and steel industry. Chinese Journal of Engineering, 2018, 40(7): 767-775. （闫伯骏, 邢奕, 路培, 等. 钢铁行业烧结烟气多污染物协同净化技术研究进展. 工程科学学报, 2018, 40(7): 767-775） [6] Zhang X B, Zhu M W. Effect of bentonite additive on pelletizing operation of our country. Sintering and Pelletizing, 2003(06): 3-7 （张新兵, 朱梦伟. 膨润土对我国球团生产的影响. 烧结球团, 2003(06): 3-7) [7] Kawatra S K, Ripke S J. Developing and understanding the bentonite fiber bonding mechanism. Minerals Engineering, 2001, 14(6) [8] Kawatra S K, Ripke S J. Laboratory studies for improving green ball strength in bentonite-bonded magnetite concentrate pellets. International Journal of Mineral Processing, 2003, 72(1-4): 429-441 [9] Pei Y H, Gan X F, Chen Y Y, et al. Experimental research on new type pf organic binder as pellet additive. Sintering and Pelletizing, 2012, 37(01): 39-41 （裴业虎, 甘学锋, 陈义勇, 等. 新型有机粘接剂作球团添加剂试验研究. 烧结球团, 2012, 37(01): 39- 41） [10] Fan X H, Wang Y, Gan M, et al. Strength enhancement of oxide pellet with organic binder. Journal of Iron and Steel Research, 2008(05): 5-8+19 （范晓慧, 王祎, 甘敏, 等. 提高有机粘结剂氧化球团矿强度的措施. 钢铁研究学报, 2008(05): 5-8+19） [11] Huang G X. Study on Preparation of Oxidized Pellet by New-style Organic Binder [Dissertation]. Changsha: Central South University, 2007 （黄桂香.应用新型有机粘结剂制备氧化球团的研究[学位论文]. 长沙:中南大学，2007） [12] Li H X, Jiang T, Qiu G Z, et al. Molecular structure mould and selecting criterion of organic binder for iron ore pellet. Journal of Central South University of Technology, 2000(01): 17-20 （李宏煦, 姜涛, 邱冠周, 等. 铁矿球团有机粘结剂的分子构型及选择判据. 中南工业大学学报, 2000(01): 17-20） [13] Li H X, Wang D Z, Qiu G Z, et al. The mechanism of improving pellet strength by carboxyl methlated amylum. Journal of Central South University of Technology, 2001(04): 351-354 （李宏煦, 王淀佐, 邱冠周, 等. 羧甲基淀粉钠提高球团强度的机理. 中南工业大学学报, 2001(04): 351- 354） [14] Yang Y B, Huang G X, Jiang T, et al. Application of organic binder as substitutes for bentonite in pellet preparation. Journal of Central South University, 2007(05): 850-856 （杨永斌, 黄桂香, 姜涛, 等. 有机粘结剂替代膨润土制备氧化球团. 中南大学学报, 2007(05): 850-856） [15] Huang Z C, Wang Y M, Chai B, et al. Preparation of oxide pellets with fibrosis bentonite and its mechanism. Journal of Central South University, 2014, 45(07): 2145-2150 （黄柱成, 王雨蒙, 柴斌, 等. 纤维化膨润土强化氧化球团制备及其机理. 中南大学学报, 2014, 45(07): 2145-2150） [16] Huang Z C, Li T H, Yi L Y, et al. Preparation of fibrosis bentonite and its application in iron ore concentrate 录用稿件，非最终出版稿